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Empowering Tri-Functional Palladium's Catalytic Activity and Durability in Electrocatalytic Formic Acid Oxidation Reaction via Innovative Self-Caging and Alloying Strategiesopen access

Authors
Lee, Chan-WooJung, Sun YoungRyu, Jeong HoJeon, Gyeom SeongGaur, AshishCho, Min SuAli, GhulamKim, MingonyChung, Kyung YoonNayak, Arpan KumarShin, SeoyoonKwon, JiseokSong, TaeseupShin, Tae HoHan, Hyuksu
Issue Date
Dec-2024
Publisher
WILEY
Keywords
electrocatalyst; formic acidic oxidation reaction; self-caging; tri-functionality; palladium alloy
Citation
ADVANCED SCIENCE, v.11, no.46, pp 1 - 13
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
ADVANCED SCIENCE
Volume
11
Number
46
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211250
DOI
10.1002/advs.202405725
ISSN
2198-3844
2198-3844
Abstract
Direct formic acid fuel cells (DFAFCs) stand out for portable electronic devices owing to their ease of handling, abundant fuel availability, and high theoretical open circuit potential. However, the practical application of DFAFCs is hindered by the unsatisfactory performance of electrocatalysts for the sluggish anodic formic acid oxidation reaction (FAOR). Palladium (Pd) based nanomaterials have shown promise for FAOR due to their highly selective reaction mechanism, but maintaining high electrocatalytic durability remains challenging. In this study, a novel Pd-based electrocatalyst (UiO-Pd-E) is reported with exceptional durability and activity for FAOR, which can be attributed to the Pd nanoparticles encapsulated within a carbon framework where concurrent chemical alloying of Pd and Zr occurs. Further, the UiO-Pd-E demonstrates noteworthy multifunctionality in various electrochemical reactions including electrocatalytic ethanol oxidation reaction (EOR) and oxygen reduction reaction (ORR) in addition to the FAOR, highlighting its practical potentials.
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